
#include "stdai.h"
#include "ai.fdh"

InitList AIRoutines;


bool ai_init(void)
{
	// setup function pointers to AI routines
	for(int i=0;i<OBJ_LAST;i++)
		memset(&objprop[i].ai_routines, 0, sizeof(objprop[i].ai_routines));
	
	if (load_npc_tbl()) return 1;
	
	// OBJ_NULL has flags set in npc.tbl, but shouldn't be set in our engine
	objprop[OBJ_NULL].defaultflags = 0;
	memcpy(&objprop[OBJ_SKULLHEAD_CARRIED], &objprop[OBJ_SKULLHEAD], sizeof(ObjProp));
	
	objprop[OBJ_POLISH].initial_hp = 24;	// is the value of 120 in npc.tbl really wrong? if so why?
	objprop[OBJ_POLISH].death_sound = 25;	// not sure why this is apparently wrong in file
	
	// call all the INITFUNC() routines you find at the beginning
	// of every AI-related module which assign AI logic to objects.
	if (AIRoutines.CallFunctions())
	{
		staterr("ai_init: failed to initilize AIRoutines function pointers");
		return 1;
	}
	
	return 0;
}


bool load_npc_tbl(void)
{
const int smoke_amounts[] = { 0, 3, 7, 12 };
const int nEntries = 361;
int i;

	FILE *fp = fopen("/sdcard/data/nxengine/npc.tbl", "rb");
	if (!fp) { staterr("load_npc_tbl: data/npc.tbl is missing"); return 1; }
	
	stat("Reading npc.tbl...");
	
	for(i=0;i<nEntries;i++) objprop[i].defaultflags = fgeti(fp);
	for(i=0;i<nEntries;i++) objprop[i].initial_hp = fgeti(fp);
	
	// next is a spritesheet # of something--but we don't use it, so skip
	//for(i=0;i<nEntries;i++) fgetc(fp);		// spritesheet # or something--but we don't use it
	fseek(fp, (nEntries * 2 * 2) + nEntries, SEEK_SET);
	
	for(i=0;i<nEntries;i++) objprop[i].death_sound = fgetc(fp);
	for(i=0;i<nEntries;i++) objprop[i].hurt_sound = fgetc(fp);
	for(i=0;i<nEntries;i++) objprop[i].death_smoke_amt = smoke_amounts[fgetc(fp)];
	for(i=0;i<nEntries;i++) objprop[i].xponkill = fgetl(fp);
	for(i=0;i<nEntries;i++) objprop[i].damage = fgetl(fp);
	
	fclose(fp);
	return 0;
}

/*
void c------------------------------() {}
*/

// spawn an object at an enemies action point
Object *SpawnObjectAtActionPoint(Object *o, int otype)
{
int x, y;
Object *newObject;

	x = o->x + (sprites[o->sprite].frame[o->frame].dir[o->dir].actionpoint.x << CSF);
	y = o->y + (sprites[o->sprite].frame[o->frame].dir[o->dir].actionpoint.y << CSF);
	newObject = CreateObject(x, y, otype);
	newObject->dir = o->dir;
	return newObject;
}


// destroys all objects of type "otype".
// creates a BoomFlash and smoke, but no bonuses.
void KillObjectsOfType(int type)
{
	Object *o = firstobject;
	while(o)
	{
		if (o->type == type)
		{
			SmokeClouds(o, 1, 0, 0);
			effect(o->CenterX(), o->CenterY(), EFFECT_BOOMFLASH);
			
			o->Delete();
		}
		
		o = o->next;
	}
}

// deletes all objects of type "otype" silently, without any smoke or other effects.
void DeleteObjectsOfType(int type)
{
	Object *o = firstobject;
	while(o)
	{
		if (o->type == type)
		{
			o->Delete();
		}
		
		o = o->next;
	}
}

/*
void c------------------------------() {}
*/


// handles object blinking: at random intervals forces object o's frame to blinkframe
// for blinktime frames.
void randblink(Object *o, int blinkframe, int blinktime, int prob)
{
	if (o->blinktimer)
	{
		o->blinktimer--;
		o->frame = blinkframe;
	}
	else if (random(0, prob) == 0)
	{
		o->frame = blinkframe;
		o->blinktimer = 8;
	}
}

// call this in an object's aftermove routine if it's an object
// which is being carried by the player like a puppy or curly.
// x_left: offset from p's action point when he faces left
// x_right: when he faces right
// off_y: vertical offset from p's action point
void StickToPlayer(Object *o, int x_left, int x_right, int off_y)
{
int x, y, frame;

	// needed for puppy in chest
	o->flags &= ~FLAG_SCRIPTONACTIVATE;
	
	// by offsetting from the player's action point, where he holds his gun, we
	// already have set up for us a nice up-and-down 1 pixel as he walks
	frame = player->frame;
	// the p's "up" frames have unusually placed action points so we have to cancel those out
	if (frame >= 3 && frame <= 5) frame -= 3;
	
	x = (player->x >> CSF) + sprites[player->sprite].frame[frame].dir[player->dir].actionpoint.x;
	y = (player->y >> CSF) + sprites[player->sprite].frame[frame].dir[player->dir].actionpoint.y;
	y += off_y;
	
	if (player->dir == RIGHT)
	{
		x += x_right;
		o->dir = RIGHT;
	}
	else
	{
		x += x_left;
		o->dir = LEFT;
	}
	
	o->x = (x << CSF);
	o->y = (y << CSF);
}


// used for some bosses with subobjects
void transfer_damage(Object *o, Object *target)
{
	if (o->hp < 1000)
	{
		// if you forget to set hp to 1000 when creating the puppet object,
		// it can immediately destroy the main object, possibly leading to crashes.
		#ifdef DEBUG
			ASSERT(o->hp != 0);
		#endif
		
		target->DealDamage(1000 - o->hp);
		o->hp = 1000;
	}
}

/*
void c------------------------------() {}
*/

// do the "teleport in" effect for object o.
// when complete, returns true.
// this function uses o->timer and assume o->timer starts at 0.
bool DoTeleportIn(Object *o, int slowness)
{
	if (teleffect(o, slowness, false))
	{
		o->clip_enable = false;
		return true;
	}
	
	return false;
}

// does a teleport out effect.
// When complete, returns true.
// this function uses o->timer and assume o->timer starts at 0.
bool DoTeleportOut(Object *o, int slowness)
{
	return teleffect(o, slowness, true);
}

// common code for DoTeleportIn and DoTeleportOut
// returns true when teleport is complete
static bool teleffect(Object *o, int slowness, bool teleporting_out)
{
	o->display_xoff = random(-1, 1);
	
	if (!o->timer)
	{
		sound(SND_TELEPORT);
		o->clip_enable = true;
		o->clipy1 = 0;
	}
	
	if (++o->timer >= (sprites[o->sprite].h << slowness))
	{
		o->clip_enable = false;
		o->display_xoff = 0;
		return true;
	}
	else
	{
		int amt = (o->timer >> slowness);
		
		if (teleporting_out)
			o->clipy2 = sprites[o->sprite].h - amt;
		else
			o->clipy2 = amt;
		
		return false;
	}
}

/*
void c------------------------------() {}
*/

void ai_animate1(Object *o) { if (++o->frame >= sprites[o->sprite].nframes) o->frame = 0; }
void ai_animate2(Object *o) { simpleanim(o, 2); }
void ai_animate3(Object *o) { simpleanim(o, 3); }
void ai_animate4(Object *o) { simpleanim(o, 4); }
void ai_animate5(Object *o) { simpleanim(o, 5); }

static void simpleanim(Object *o, int spd)
{
	if (++o->animtimer >= spd)
	{
		o->animtimer = 0;
		if (++o->frame >= sprites[o->sprite].nframes) o->frame = 0;
	}
}

/*
void c------------------------------() {}
*/

// aftermove routine which sticks the object to the action point of the NPC that's carrying it
void aftermove_StickToLinkedActionPoint(Object *o)
{
Object *link = o->linkedobject;
int dir;

	if (link)
	{
		dir = (link->dir ^ o->carry.flip);
		
		o->x = ((link->x >> CSF) + sprites[link->sprite].frame[link->frame].dir[dir].actionpoint.x) << CSF;
		o->y = ((link->y >> CSF) + sprites[link->sprite].frame[link->frame].dir[dir].actionpoint.y) << CSF;
		o->dir = dir;
	}
	else
	{
		o->Delete();
	}
}

void onspawn_snap_to_ground(Object *o)
{
	o->SnapToGround();
}

void onspawn_set_frame_from_id2(Object *o)
{
	o->frame = o->id2;
}

/*
void c------------------------------() {}
*/

